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Papers/Implicit Regularization in Perturbed Deep Matrix Factorization: Spectral Conditions and Stability
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Implicit Regularization in Perturbed Deep Matrix Factorization: Spectral Conditions and Stability

May 27, 2026

arXiv
Abstract

This paper studies the stability of low-rank implicit regularization in perturbed deep matrix factorization, where the target matrix is corrupted by a noise matrix. We first derive sufficient spectral conditions under which gradient descent exhibits a low-rank phase in the noiseless setting. These conditions show how the target spectrum, initialization, and step size jointly determine the existence of a nonempty low-rank interval. We then analyze the perturbed gradient descent dynamics, proving convergence guarantees and quantifying how the perturbation affects iteration complexity and eigenvalue recovery. Finally, we show that the low-rank phase persists under perturbation, with explicit dependence on the perturbation size. Numerical experiments support the theoretical findings.

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Authors
Jingzhe Wang, Hung-Hsu Chou
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arXiv:2605.28613